using System;
using L=Science.Physics.GeneralPhysics;

namespace Serway.Chapter06
{
	/// <summary>
	/// Example12: Falling Coffee Filters
	/// The dependence of resistive force on speed is an empirical 
	/// relationship. In other words, it is based on observation 
	/// rather than on a theoretical model. Imagine an experiment 
	/// in which we drop a series of staked coffee filters, and 
	/// measure their terminal speeds. Table 6.2 presents data 
	/// for these coffee filters as they fall through the air. 
	/// The time constant is small, so that a dropped filter 
	/// quickly reaches terminal speed. Each filter has a mass 
	/// of 1.64 g. When the filters are nested together, they stack 
	/// in such a way that the front facing surface area does not 
	/// increase. Determine the relationship between the resistive 
	/// force exerted by the air and the speed of the 
	/// falling filters.
	/// </summary>
	public class Example12
	{
		public Example12()
		{
		}
		private string result;
		public string Result
		{
			get{return result;}
		}
		public void Compute()
		{
			result = "Read the book!";
		}
	}
}
